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Paper detail

Neural-network Quantum State of Transverse-field Ising Model

Along the way initiated by Carleo and Troyer [1], we construct the neural-network quantum state of transverse-field Ising model(TFIM) by an unsupervised machine learning method. Such a wave function is a map from the spin-configuration space to the complex number field determined by an array of network parameters. To get the ground state of the system, values of the network parameters are calculated by a Stochastic Reconfiguration(SR) method. We provide for this SR method an understanding from action principle and information geometry aspects. With this quantum state, we calculate key observables of the system, the energy, correlation function, correlation length, magnetic moment and susceptibility. As innovations, we provide a high efficiency method and use it to calculate entanglement entropy (EE) of the system and get results consistent with previous work very well.

preprint2019arXivOpen access
Han-Qing ShiXiao-yue SunDing-Fang Zeng
cond-mat.stat-mechcond-mat.dis-nn
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Han-Qing ShiXiao-yue SunDing-Fang Zeng

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